Skip to content

R
riscv-gcc-1
Commit 9ba5ff0f by Nathan Sidwell Committed by Nathan Sidwell
Options

vec.h: Propagate location information properly. 

.:	* vec.h: Propagate location information properly.
	(VEC_T_iterate): Add result pointer parameter.
	(VEC_T_space): New.
	(VEC_T_reserve): Use it.
cp:
	* class.c (add_method): Delay adding the slot until the end.
	(determine_primary_base): Adjust VEC_iterate invokation.
	(resort_type_method_vec, finish_struct_methods, warn_hidden,
	walk_subobject_offsets, end_of_class, warn_about_ambiguous_bases,
	build_vtbl_initializer): Likewise.
	* init.c (sort_mem_initializers, build_delete, push_base_cleanups,
	build_vbase_delete): Likewise.
	* method.c (do_build_copy_constructor): Likewise.
	* name-lookup.c (new_class_binding, print_binding_level,
	poplevel_class, store_class_bindings, push_to_top_level,
	pop_from_top_level): Likewise.
	* pt.c (check_explicit_specialization): Likewise.
	* search.c (lookup_conversion_operator, lookup_fnfields_1,
	get_pure_virtuals, add_conversions, dfs_check_overlap,
	binfo_for_vbase): Likewise.

From-SVN: r84924
parent 6df91b00
Showing with 259 additions and 156 deletions
gcc/ChangeLog
2004-07-19 Nathan Sidwell <nathan@codesourcery.com>
* vec.h: Propagate location information properly.
(VEC_T_iterate): Add result pointer parameter.
(VEC_T_space): New.
(VEC_T_reserve): Use it.
2004-07-19 Daniel Jacobowitz <dan@debian.org> 2004-07-19 Daniel Jacobowitz <dan@debian.org>
* Makefile.in (c-format.o): Depend on c-format.h. * Makefile.in (c-format.o): Depend on c-format.h.
......
gcc/cp/ChangeLog
2004-07-19 Nathan Sidwell <nathan@codesourcery.com>
* class.c (add_method): Delay adding the slot until the end.
(determine_primary_base): Adjust VEC_iterate invokation.
(resort_type_method_vec, finish_struct_methods, warn_hidden,
walk_subobject_offsets, end_of_class, warn_about_ambiguous_bases,
build_vtbl_initializer): Likewise.
* init.c (sort_mem_initializers, build_delete, push_base_cleanups,
build_vbase_delete): Likewise.
* method.c (do_build_copy_constructor): Likewise.
* name-lookup.c (new_class_binding, print_binding_level,
poplevel_class, store_class_bindings, push_to_top_level,
pop_from_top_level): Likewise.
* pt.c (check_explicit_specialization): Likewise.
* search.c (lookup_conversion_operator, lookup_fnfields_1,
get_pure_virtuals, add_conversions, dfs_check_overlap,
binfo_for_vbase): Likewise.
2004-07-19 Kriang Lerdsuwanakij <lerdsuwa@users.sourceforge.net> 2004-07-19 Kriang Lerdsuwanakij <lerdsuwa@users.sourceforge.net>
PR c++/12170 PR c++/12170
......
gcc/cp/class.c
...@@ -801,12 +801,13 @@ void ...@@ -801,12 +801,13 @@ void
add_method (tree type, tree method) add_method (tree type, tree method)
{ {
int using; int using;
size_t len; unsigned slot;
size_t slot;
tree overload; tree overload;
int template_conv_p; int template_conv_p;
VEC(tree) *method_vec; VEC(tree) *method_vec;
bool complete_p; bool complete_p;
bool insert_p = false;
tree current_fns;
if (method == error_mark_node) if (method == error_mark_node)
return; return;
...@@ -830,8 +831,6 @@ add_method (tree type, tree method) ...@@ -830,8 +831,6 @@ add_method (tree type, tree method)
CLASSTYPE_METHOD_VEC (type) = method_vec; CLASSTYPE_METHOD_VEC (type) = method_vec;
} }
len = VEC_length (tree, method_vec);
/* Constructors and destructors go in special slots. */ /* Constructors and destructors go in special slots. */
if (DECL_MAYBE_IN_CHARGE_CONSTRUCTOR_P (method)) if (DECL_MAYBE_IN_CHARGE_CONSTRUCTOR_P (method))
slot = CLASSTYPE_CONSTRUCTOR_SLOT; slot = CLASSTYPE_CONSTRUCTOR_SLOT;
...@@ -848,13 +847,13 @@ add_method (tree type, tree method) ...@@ -848,13 +847,13 @@ add_method (tree type, tree method)
} }
else else
{ {
bool insert_p = true;
bool conv_p = DECL_CONV_FN_P (method); bool conv_p = DECL_CONV_FN_P (method);
tree m; tree m;
insert_p = true;
/* See if we already have an entry with this name. */ /* See if we already have an entry with this name. */
for (slot = CLASSTYPE_FIRST_CONVERSION_SLOT; for (slot = CLASSTYPE_FIRST_CONVERSION_SLOT;
(m = VEC_iterate (tree, method_vec, slot)); VEC_iterate (tree, method_vec, slot, m);
++slot) ++slot)
{ {
m = OVL_CURRENT (m); m = OVL_CURRENT (m);
...@@ -877,25 +876,9 @@ add_method (tree type, tree method) ...@@ -877,25 +876,9 @@ add_method (tree type, tree method)
&& DECL_NAME (m) > DECL_NAME (method)) && DECL_NAME (m) > DECL_NAME (method))
break; break;
} }
/* If we need a new slot, make room. */
if (insert_p)
{
/* We expect to add few methods in the COMPLETE_P case, so
just make room for one more method. */
if (complete_p)
VEC_reserve (tree, method_vec, 1);
if (slot == len)
VEC_safe_push (tree, method_vec, NULL_TREE);
else
VEC_safe_insert (tree, method_vec, slot, NULL_TREE);
len++;
/* Inserting a new slot may have caused the vector to be
reallocated. */
CLASSTYPE_METHOD_VEC (type) = method_vec;
}
} }
current_fns = insert_p ? NULL_TREE : VEC_index (tree, method_vec, slot);
if (processing_template_decl) if (processing_template_decl)
/* TYPE is a template class. Don't issue any errors now; wait /* TYPE is a template class. Don't issue any errors now; wait
until instantiation time to complain. */ until instantiation time to complain. */
...@@ -905,9 +888,7 @@ add_method (tree type, tree method) ...@@ -905,9 +888,7 @@ add_method (tree type, tree method)
tree fns; tree fns;
/* Check to see if we've already got this method. */ /* Check to see if we've already got this method. */
for (fns = VEC_index (tree, method_vec, slot); for (fns = current_fns; fns; fns = OVL_NEXT (fns))
fns;
fns = OVL_NEXT (fns))
{ {
tree fn = OVL_CURRENT (fns); tree fn = OVL_CURRENT (fns);
tree parms1; tree parms1;
...@@ -975,14 +956,25 @@ add_method (tree type, tree method) ...@@ -975,14 +956,25 @@ add_method (tree type, tree method)
} }
/* Add the new binding. */ /* Add the new binding. */
overload = build_overload (method, VEC_index (tree, method_vec, slot)); overload = build_overload (method, current_fns);
if (!DECL_CONSTRUCTOR_P (method)
&& !DECL_DESTRUCTOR_P (method) if (slot >= CLASSTYPE_FIRST_CONVERSION_SLOT && !complete_p)
&& !complete_p)
push_class_level_binding (DECL_NAME (method), overload); push_class_level_binding (DECL_NAME (method), overload);
/* Actually insert the new method. */ if (insert_p)
VEC_replace (tree, method_vec, slot, overload); {
/* We only expect to add few methods in the COMPLETE_P case, so
just make room for one more method in that case. */
if (VEC_reserve (tree, method_vec, complete_p ? 1 : -1))
CLASSTYPE_METHOD_VEC (type) = method_vec;
if (slot == VEC_length (tree, method_vec))
VEC_quick_push (tree, method_vec, overload);
else
VEC_quick_insert (tree, method_vec, slot, overload);
}
else
/* Replace the current slot. */
VEC_replace (tree, method_vec, slot, overload);
} }
/* Subroutines of finish_struct. */ /* Subroutines of finish_struct. */
...@@ -1275,8 +1267,9 @@ static void ...@@ -1275,8 +1267,9 @@ static void
determine_primary_base (tree t) determine_primary_base (tree t)
{ {
unsigned i, n_baseclasses = BINFO_N_BASE_BINFOS (TYPE_BINFO (t)); unsigned i, n_baseclasses = BINFO_N_BASE_BINFOS (TYPE_BINFO (t));
tree type_binfo; tree type_binfo = TYPE_BINFO (t);
tree vbase_binfo; tree vbase_binfo;
VEC(tree) *vbases;
/* If there are no baseclasses, there is certainly no primary base. */ /* If there are no baseclasses, there is certainly no primary base. */
if (n_baseclasses == 0) if (n_baseclasses == 0)
...@@ -1324,8 +1317,8 @@ determine_primary_base (tree t) ...@@ -1324,8 +1317,8 @@ determine_primary_base (tree t)
/* Find the indirect primary bases - those virtual bases which are primary /* Find the indirect primary bases - those virtual bases which are primary
bases of something else in this hierarchy. */ bases of something else in this hierarchy. */
for (i = 0; (vbase_binfo = VEC_iterate for (vbases = CLASSTYPE_VBASECLASSES (t), i = 0;
(tree, CLASSTYPE_VBASECLASSES (t), i)); i++) VEC_iterate (tree, vbases, i, vbase_binfo); i++)
{ {
unsigned j; unsigned j;
...@@ -1335,11 +1328,12 @@ determine_primary_base (tree t) ...@@ -1335,11 +1328,12 @@ determine_primary_base (tree t)
for (j = 0; j != n_baseclasses; ++j) for (j = 0; j != n_baseclasses; ++j)
{ {
unsigned k; unsigned k;
VEC (tree) *base_vbases;
tree base_vbase_binfo; tree base_vbase_binfo;
tree basetype = BINFO_TYPE (BINFO_BASE_BINFO (TYPE_BINFO (t), j)); tree basetype = BINFO_TYPE (BINFO_BASE_BINFO (TYPE_BINFO (t), j));
for (k = 0; (base_vbase_binfo = VEC_iterate for (base_vbases = CLASSTYPE_VBASECLASSES (basetype), k = 0;
(tree, CLASSTYPE_VBASECLASSES (basetype), k)); k++) VEC_iterate (tree, base_vbases, k, base_vbase_binfo); k++)
{ {
if (BINFO_PRIMARY_P (base_vbase_binfo) if (BINFO_PRIMARY_P (base_vbase_binfo)
&& same_type_p (BINFO_TYPE (base_vbase_binfo), && same_type_p (BINFO_TYPE (base_vbase_binfo),
...@@ -1677,7 +1671,7 @@ resort_type_method_vec (void* obj, ...@@ -1677,7 +1671,7 @@ resort_type_method_vec (void* obj,
/* The type conversion ops have to live at the front of the vec, so we /* The type conversion ops have to live at the front of the vec, so we
can't sort them. */ can't sort them. */
for (slot = CLASSTYPE_FIRST_CONVERSION_SLOT; for (slot = CLASSTYPE_FIRST_CONVERSION_SLOT;
(fn = VEC_iterate (tree, method_vec, slot)); VEC_iterate (tree, method_vec, slot, fn);
++slot) ++slot)
if (!DECL_CONV_FN_P (OVL_CURRENT (fn))) if (!DECL_CONV_FN_P (OVL_CURRENT (fn)))
break; break;
...@@ -1738,8 +1732,8 @@ finish_struct_methods (tree t) ...@@ -1738,8 +1732,8 @@ finish_struct_methods (tree t)
/* The type conversion ops have to live at the front of the vec, so we /* The type conversion ops have to live at the front of the vec, so we
can't sort them. */ can't sort them. */
for (slot = 2; for (slot = CLASSTYPE_FIRST_CONVERSION_SLOT;
(fn_fields = VEC_iterate (tree, method_vec, slot)); VEC_iterate (tree, method_vec, slot, fn_fields);
++slot) ++slot)
if (!DECL_CONV_FN_P (OVL_CURRENT (fn_fields))) if (!DECL_CONV_FN_P (OVL_CURRENT (fn_fields)))
break; break;
...@@ -2369,7 +2363,7 @@ warn_hidden (tree t) ...@@ -2369,7 +2363,7 @@ warn_hidden (tree t)
/* We go through each separately named virtual function. */ /* We go through each separately named virtual function. */
for (i = CLASSTYPE_FIRST_CONVERSION_SLOT; for (i = CLASSTYPE_FIRST_CONVERSION_SLOT;
(fns = VEC_iterate (tree, method_vec, i)); VEC_iterate (tree, method_vec, i, fns);
++i) ++i)
{ {
tree fn; tree fn;
...@@ -3229,6 +3223,7 @@ walk_subobject_offsets (tree type, ...@@ -3229,6 +3223,7 @@ walk_subobject_offsets (tree type,
if (abi_version_at_least (2) && CLASSTYPE_VBASECLASSES (type)) if (abi_version_at_least (2) && CLASSTYPE_VBASECLASSES (type))
{ {
unsigned ix; unsigned ix;
VEC (tree) *vbases;
/* Iterate through the virtual base classes of TYPE. In G++ /* Iterate through the virtual base classes of TYPE. In G++
3.2, we included virtual bases in the direct base class 3.2, we included virtual bases in the direct base class
...@@ -3236,8 +3231,8 @@ walk_subobject_offsets (tree type, ...@@ -3236,8 +3231,8 @@ walk_subobject_offsets (tree type,
correct offsets for virtual bases are only known when correct offsets for virtual bases are only known when
working with the most derived type. */ working with the most derived type. */
if (vbases_p) if (vbases_p)
for (ix = 0; (binfo = VEC_iterate for (vbases = CLASSTYPE_VBASECLASSES (type), ix = 0;
(tree, CLASSTYPE_VBASECLASSES (type), ix)); ix++) VEC_iterate (tree, vbases, ix, binfo); ix++)
{ {
r = walk_subobject_offsets (binfo, r = walk_subobject_offsets (binfo,
f, f,
...@@ -4402,7 +4397,9 @@ static tree ...@@ -4402,7 +4397,9 @@ static tree
end_of_class (tree t, int include_virtuals_p) end_of_class (tree t, int include_virtuals_p)
{ {
tree result = size_zero_node; tree result = size_zero_node;
VEC (tree) *vbases;
tree binfo; tree binfo;
tree base_binfo;
tree offset; tree offset;
int i; int i;
...@@ -4422,10 +4419,10 @@ end_of_class (tree t, int include_virtuals_p) ...@@ -4422,10 +4419,10 @@ end_of_class (tree t, int include_virtuals_p)
/* G++ 3.2 did not check indirect virtual bases. */ /* G++ 3.2 did not check indirect virtual bases. */
if (abi_version_at_least (2) && include_virtuals_p) if (abi_version_at_least (2) && include_virtuals_p)
for (i = 0; (binfo = VEC_iterate for (vbases = CLASSTYPE_VBASECLASSES (t), i = 0;
(tree, CLASSTYPE_VBASECLASSES (t), i)); i++) VEC_iterate (tree, vbases, i, base_binfo); i++)
{ {
offset = end_of_base (binfo); offset = end_of_base (base_binfo);
if (INT_CST_LT_UNSIGNED (result, offset)) if (INT_CST_LT_UNSIGNED (result, offset))
result = offset; result = offset;
} }
...@@ -4447,11 +4444,13 @@ static void ...@@ -4447,11 +4444,13 @@ static void
warn_about_ambiguous_bases (tree t) warn_about_ambiguous_bases (tree t)
{ {
int i; int i;
VEC (tree) *vbases;
tree basetype; tree basetype;
tree binfo; tree binfo;
/* Check direct bases. */ /* Check direct bases. */
for (i = 0; i < BINFO_N_BASE_BINFOS (TYPE_BINFO (t)); ++i) for (i = 0;
i < BINFO_N_BASE_BINFOS (TYPE_BINFO (t)); ++i)
{ {
basetype = BINFO_TYPE (BINFO_BASE_BINFO (TYPE_BINFO (t), i)); basetype = BINFO_TYPE (BINFO_BASE_BINFO (TYPE_BINFO (t), i));
...@@ -4462,8 +4461,8 @@ warn_about_ambiguous_bases (tree t) ...@@ -4462,8 +4461,8 @@ warn_about_ambiguous_bases (tree t)
/* Check for ambiguous virtual bases. */ /* Check for ambiguous virtual bases. */
if (extra_warnings) if (extra_warnings)
for (i = 0; (binfo = VEC_iterate for (vbases = CLASSTYPE_VBASECLASSES (t), i = 0;
(tree, CLASSTYPE_VBASECLASSES (t), i)); i++) VEC_iterate (tree, vbases, i, binfo); i++)
{ {
basetype = BINFO_TYPE (binfo); basetype = BINFO_TYPE (binfo);
...@@ -7237,7 +7236,8 @@ build_vtbl_initializer (tree binfo, ...@@ -7237,7 +7236,8 @@ build_vtbl_initializer (tree binfo,
vtbl_init_data vid; vtbl_init_data vid;
unsigned ix; unsigned ix;
tree vbinfo; tree vbinfo;
VEC (tree) *vbases;
/* Initialize VID. */ /* Initialize VID. */
memset (&vid, 0, sizeof (vid)); memset (&vid, 0, sizeof (vid));
vid.binfo = binfo; vid.binfo = binfo;
...@@ -7262,8 +7262,8 @@ build_vtbl_initializer (tree binfo, ...@@ -7262,8 +7262,8 @@ build_vtbl_initializer (tree binfo,
/* Clear BINFO_VTABLE_PATH_MARKED; it's set by /* Clear BINFO_VTABLE_PATH_MARKED; it's set by
build_vbase_offset_vtbl_entries. */ build_vbase_offset_vtbl_entries. */
for (ix = 0; (vbinfo = VEC_iterate for (vbases = CLASSTYPE_VBASECLASSES (t), ix = 0;
(tree, CLASSTYPE_VBASECLASSES (t), ix)); ix++) VEC_iterate (tree, vbases, ix, vbinfo); ix++)
BINFO_VTABLE_PATH_MARKED (vbinfo) = 0; BINFO_VTABLE_PATH_MARKED (vbinfo) = 0;
/* If the target requires padding between data entries, add that now. */ /* If the target requires padding between data entries, add that now. */
......
gcc/cp/init.c
...@@ -460,6 +460,7 @@ sort_mem_initializers (tree t, tree mem_inits) ...@@ -460,6 +460,7 @@ sort_mem_initializers (tree t, tree mem_inits)
tree base; tree base;
tree sorted_inits; tree sorted_inits;
tree next_subobject; tree next_subobject;
VEC (tree) *vbases;
int i; int i;
int uses_unions_p; int uses_unions_p;
...@@ -470,8 +471,8 @@ sort_mem_initializers (tree t, tree mem_inits) ...@@ -470,8 +471,8 @@ sort_mem_initializers (tree t, tree mem_inits)
sorted_inits = NULL_TREE; sorted_inits = NULL_TREE;
/* Process the virtual bases. */ /* Process the virtual bases. */
for (i = 0; (base = VEC_iterate for (vbases = CLASSTYPE_VBASECLASSES (t), i = 0;
(tree, CLASSTYPE_VBASECLASSES (t), i)); i++) VEC_iterate (tree, vbases, i, base); i++)
sorted_inits = tree_cons (base, NULL_TREE, sorted_inits); sorted_inits = tree_cons (base, NULL_TREE, sorted_inits);
/* Process the direct bases. */ /* Process the direct bases. */
...@@ -2857,10 +2858,11 @@ build_delete (tree type, tree addr, special_function_kind auto_delete, ...@@ -2857,10 +2858,11 @@ build_delete (tree type, tree addr, special_function_kind auto_delete,
void void
push_base_cleanups (void) push_base_cleanups (void)
{ {
tree binfos; tree binfos, base_binfo;
int i, n_baseclasses; int i, n_baseclasses;
tree member; tree member;
tree expr; tree expr;
VEC (tree) *vbases;
/* Run destructors for all virtual baseclasses. */ /* Run destructors for all virtual baseclasses. */
if (TYPE_USES_VIRTUAL_BASECLASSES (current_class_type)) if (TYPE_USES_VIRTUAL_BASECLASSES (current_class_type))
...@@ -2872,16 +2874,15 @@ push_base_cleanups (void) ...@@ -2872,16 +2874,15 @@ push_base_cleanups (void)
/* The CLASSTYPE_VBASECLASSES vector is in initialization /* The CLASSTYPE_VBASECLASSES vector is in initialization
order, which is also the right order for pushing cleanups. */ order, which is also the right order for pushing cleanups. */
for (i = 0; (binfos = VEC_iterate for (vbases = CLASSTYPE_VBASECLASSES (current_class_type), i = 0;
(tree, CLASSTYPE_VBASECLASSES (current_class_type), i)); VEC_iterate (tree, vbases, i, base_binfo); i++)
i++)
{ {
if (TYPE_HAS_NONTRIVIAL_DESTRUCTOR (BINFO_TYPE (binfos))) if (TYPE_HAS_NONTRIVIAL_DESTRUCTOR (BINFO_TYPE (base_binfo)))
{ {
expr = build_special_member_call (current_class_ref, expr = build_special_member_call (current_class_ref,
base_dtor_identifier, base_dtor_identifier,
NULL_TREE, NULL_TREE,
binfos, base_binfo,
(LOOKUP_NORMAL (LOOKUP_NORMAL
| LOOKUP_NONVIRTUAL)); | LOOKUP_NONVIRTUAL));
expr = build (COND_EXPR, void_type_node, cond, expr = build (COND_EXPR, void_type_node, cond,
...@@ -2938,13 +2939,14 @@ build_vbase_delete (tree type, tree decl) ...@@ -2938,13 +2939,14 @@ build_vbase_delete (tree type, tree decl)
unsigned ix; unsigned ix;
tree binfo; tree binfo;
tree result; tree result;
VEC (tree) *vbases;
tree addr = build_unary_op (ADDR_EXPR, decl, 0); tree addr = build_unary_op (ADDR_EXPR, decl, 0);
my_friendly_assert (addr != error_mark_node, 222); my_friendly_assert (addr != error_mark_node, 222);
result = convert_to_void (integer_zero_node, NULL); result = convert_to_void (integer_zero_node, NULL);
for (ix = 0; (binfo = VEC_iterate for (vbases = CLASSTYPE_VBASECLASSES (type), ix = 0;
(tree, CLASSTYPE_VBASECLASSES (type), ix)); ix++) VEC_iterate (tree, vbases, ix, binfo); ix++)
{ {
tree base_addr = convert_force tree base_addr = convert_force
(build_pointer_type (BINFO_TYPE (binfo)), addr, 0); (build_pointer_type (BINFO_TYPE (binfo)), addr, 0);
......
gcc/cp/method.c
...@@ -521,15 +521,15 @@ do_build_copy_constructor (tree fndecl) ...@@ -521,15 +521,15 @@ do_build_copy_constructor (tree fndecl)
int cvquals = cp_type_quals (TREE_TYPE (parm)); int cvquals = cp_type_quals (TREE_TYPE (parm));
int i; int i;
tree binfo; tree binfo;
VEC (tree) *vbases;
/* Initialize all the base-classes with the parameter converted /* Initialize all the base-classes with the parameter converted
to their type so that we get their copy constructor and not to their type so that we get their copy constructor and not
another constructor that takes current_class_type. We must another constructor that takes current_class_type. We must
deal with the binfo's directly as a direct base might be deal with the binfo's directly as a direct base might be
inaccessible due to ambiguity. */ inaccessible due to ambiguity. */
for (i = 0; (binfo = VEC_iterate for (vbases = CLASSTYPE_VBASECLASSES (current_class_type), i = 0;
(tree, CLASSTYPE_VBASECLASSES (current_class_type), i)); VEC_iterate (tree, vbases, i, binfo); i++)
i++)
{ {
member_init_list member_init_list
= tree_cons (binfo, = tree_cons (binfo,
......
gcc/cp/name-lookup.c
...@@ -387,7 +387,7 @@ new_class_binding (tree name, tree value, tree type, cxx_scope *scope) ...@@ -387,7 +387,7 @@ new_class_binding (tree name, tree value, tree type, cxx_scope *scope)
size_t i; size_t i;
for (i = 0; for (i = 0;
(cb = VEC_iterate (cp_class_binding, scope->class_shadowed, i)); VEC_iterate (cp_class_binding, scope->class_shadowed, i, cb);
i++) i++)
{ {
cxx_binding **b; cxx_binding **b;
...@@ -1656,9 +1656,7 @@ print_binding_level (struct cp_binding_level* lvl) ...@@ -1656,9 +1656,7 @@ print_binding_level (struct cp_binding_level* lvl)
cp_class_binding *b; cp_class_binding *b;
fprintf (stderr, " class-shadowed:"); fprintf (stderr, " class-shadowed:");
for (i = 0; for (i = 0;
(b = VEC_iterate(cp_class_binding, VEC_iterate(cp_class_binding, lvl->class_shadowed, i, b);
lvl->class_shadowed,
i));
++i) ++i)
fprintf (stderr, " %s ", IDENTIFIER_POINTER (b->identifier)); fprintf (stderr, " %s ", IDENTIFIER_POINTER (b->identifier));
fprintf (stderr, "\n"); fprintf (stderr, "\n");
...@@ -2617,7 +2615,7 @@ poplevel_class (void) ...@@ -2617,7 +2615,7 @@ poplevel_class (void)
if (level->class_shadowed) if (level->class_shadowed)
{ {
for (i = 0; for (i = 0;
(cb = VEC_iterate (cp_class_binding, level->class_shadowed, i)); VEC_iterate (cp_class_binding, level->class_shadowed, i, cb);
++i) ++i)
IDENTIFIER_BINDING (cb->identifier) = cb->base.previous; IDENTIFIER_BINDING (cb->identifier) = cb->base.previous;
ggc_free (level->class_shadowed); ggc_free (level->class_shadowed);
...@@ -4924,9 +4922,7 @@ store_class_bindings (VEC(cp_class_binding) *names, ...@@ -4924,9 +4922,7 @@ store_class_bindings (VEC(cp_class_binding) *names,
cp_class_binding *cb; cp_class_binding *cb;
timevar_push (TV_NAME_LOOKUP); timevar_push (TV_NAME_LOOKUP);
for (i = 0; for (i = 0; VEC_iterate(cp_class_binding, names, i, cb); ++i)
(cb = VEC_iterate(cp_class_binding, names, i));
++i)
store_binding (cb->identifier, old_bindings); store_binding (cb->identifier, old_bindings);
timevar_pop (TV_NAME_LOOKUP); timevar_pop (TV_NAME_LOOKUP);
} }
...@@ -4982,9 +4978,7 @@ push_to_top_level (void) ...@@ -4982,9 +4978,7 @@ push_to_top_level (void)
SET_IDENTIFIER_TYPE_VALUE (TREE_PURPOSE (t), TREE_VALUE (t)); SET_IDENTIFIER_TYPE_VALUE (TREE_PURPOSE (t), TREE_VALUE (t));
} }
for (i = 0; for (i = 0; VEC_iterate (cxx_saved_binding, s->old_bindings, i, sb); ++i)
(sb = VEC_iterate (cxx_saved_binding, s->old_bindings, i));
++i)
IDENTIFIER_MARKED (sb->identifier) = 0; IDENTIFIER_MARKED (sb->identifier) = 0;
s->prev = scope_chain; s->prev = scope_chain;
...@@ -5015,9 +5009,7 @@ pop_from_top_level (void) ...@@ -5015,9 +5009,7 @@ pop_from_top_level (void)
current_lang_base = 0; current_lang_base = 0;
scope_chain = s->prev; scope_chain = s->prev;
for (i = 0; for (i = 0; VEC_iterate (cxx_saved_binding, s->old_bindings, i, saved); ++i)
(saved = VEC_iterate (cxx_saved_binding, s->old_bindings, i));
++i)
{ {
tree id = saved->identifier; tree id = saved->identifier;
......
gcc/cp/pt.c
...@@ -1838,7 +1838,7 @@ check_explicit_specialization (tree declarator, ...@@ -1838,7 +1838,7 @@ check_explicit_specialization (tree declarator,
methods = CLASSTYPE_METHOD_VEC (ctype); methods = CLASSTYPE_METHOD_VEC (ctype);
if (methods) if (methods)
for (idx = CLASSTYPE_FIRST_CONVERSION_SLOT; for (idx = CLASSTYPE_FIRST_CONVERSION_SLOT;
(ovl = VEC_iterate (tree, methods, idx)); VEC_iterate (tree, methods, idx, ovl);
++idx) ++idx)
{ {
if (!DECL_CONV_FN_P (OVL_CURRENT (ovl))) if (!DECL_CONV_FN_P (OVL_CURRENT (ovl)))
......
gcc/cp/search.c
...@@ -1319,8 +1319,7 @@ lookup_conversion_operator (tree class_type, tree type) ...@@ -1319,8 +1319,7 @@ lookup_conversion_operator (tree class_type, tree type)
for (pass = 0; pass < 2; ++pass) for (pass = 0; pass < 2; ++pass)
for (i = CLASSTYPE_FIRST_CONVERSION_SLOT; for (i = CLASSTYPE_FIRST_CONVERSION_SLOT;
(fn = VEC_iterate (tree, methods, i)); VEC_iterate (tree, methods, i, fn); ++i)
++i)
{ {
/* All the conversion operators come near the beginning of the /* All the conversion operators come near the beginning of the
class. Therefore, if FN is not a conversion operator, there class. Therefore, if FN is not a conversion operator, there
...@@ -1410,7 +1409,7 @@ lookup_fnfields_1 (tree type, tree name) ...@@ -1410,7 +1409,7 @@ lookup_fnfields_1 (tree type, tree name)
/* Skip the conversion operators. */ /* Skip the conversion operators. */
for (i = CLASSTYPE_FIRST_CONVERSION_SLOT; for (i = CLASSTYPE_FIRST_CONVERSION_SLOT;
(fn = VEC_iterate (tree, method_vec, i)); VEC_iterate (tree, method_vec, i, fn);
++i) ++i)
if (!DECL_CONV_FN_P (OVL_CURRENT (fn))) if (!DECL_CONV_FN_P (OVL_CURRENT (fn)))
break; break;
...@@ -1442,9 +1441,7 @@ lookup_fnfields_1 (tree type, tree name) ...@@ -1442,9 +1441,7 @@ lookup_fnfields_1 (tree type, tree name)
} }
} }
else else
for (; for (; VEC_iterate (tree, method_vec, i, fn); ++i)
(fn = VEC_iterate (tree, method_vec, i));
++i)
{ {
#ifdef GATHER_STATISTICS #ifdef GATHER_STATISTICS
n_outer_fields_searched++; n_outer_fields_searched++;
...@@ -1887,6 +1884,7 @@ get_pure_virtuals (tree type) ...@@ -1887,6 +1884,7 @@ get_pure_virtuals (tree type)
{ {
unsigned ix; unsigned ix;
tree binfo; tree binfo;
VEC (tree) *vbases;
/* Clear the CLASSTYPE_PURE_VIRTUALS list; whatever is already there /* Clear the CLASSTYPE_PURE_VIRTUALS list; whatever is already there
is going to be overridden. */ is going to be overridden. */
...@@ -1903,8 +1901,8 @@ get_pure_virtuals (tree type) ...@@ -1903,8 +1901,8 @@ get_pure_virtuals (tree type)
/* Put the pure virtuals in dfs order. */ /* Put the pure virtuals in dfs order. */
CLASSTYPE_PURE_VIRTUALS (type) = nreverse (CLASSTYPE_PURE_VIRTUALS (type)); CLASSTYPE_PURE_VIRTUALS (type) = nreverse (CLASSTYPE_PURE_VIRTUALS (type));
for (ix = 0; (binfo = VEC_iterate for (vbases = CLASSTYPE_VBASECLASSES (type), ix = 0;
(tree, CLASSTYPE_VBASECLASSES (type), ix)); ix++) VEC_iterate (tree, vbases, ix, binfo); ix++)
{ {
tree virtuals; tree virtuals;
...@@ -2078,12 +2076,12 @@ add_conversions (tree binfo, void *data) ...@@ -2078,12 +2076,12 @@ add_conversions (tree binfo, void *data)
return NULL_TREE; return NULL_TREE;
for (i = CLASSTYPE_FIRST_CONVERSION_SLOT; for (i = CLASSTYPE_FIRST_CONVERSION_SLOT;
(tmp = VEC_iterate (tree, method_vec, i)); VEC_iterate (tree, method_vec, i, tmp);
++i) ++i)
{ {
tree name; tree name;
if (!tmp || ! DECL_CONV_FN_P (OVL_CURRENT (tmp))) if (!DECL_CONV_FN_P (OVL_CURRENT (tmp)))
break; break;
name = DECL_NAME (OVL_CURRENT (tmp)); name = DECL_NAME (OVL_CURRENT (tmp));
...@@ -2153,6 +2151,7 @@ dfs_check_overlap (tree empty_binfo, void *data) ...@@ -2153,6 +2151,7 @@ dfs_check_overlap (tree empty_binfo, void *data)
{ {
struct overlap_info *oi = (struct overlap_info *) data; struct overlap_info *oi = (struct overlap_info *) data;
tree binfo; tree binfo;
for (binfo = TYPE_BINFO (oi->compare_type); for (binfo = TYPE_BINFO (oi->compare_type);
; ;
binfo = BINFO_BASE_BINFO (binfo, 0)) binfo = BINFO_BASE_BINFO (binfo, 0))
...@@ -2308,9 +2307,10 @@ binfo_for_vbase (tree base, tree t) ...@@ -2308,9 +2307,10 @@ binfo_for_vbase (tree base, tree t)
{ {
unsigned ix; unsigned ix;
tree binfo; tree binfo;
VEC (tree) *vbases;
for (ix = 0; (binfo = VEC_iterate for (vbases = CLASSTYPE_VBASECLASSES (t), ix = 0;
(tree, CLASSTYPE_VBASECLASSES (t), ix)); ix++) VEC_iterate (tree, vbases, ix, binfo); ix++)
if (BINFO_TYPE (binfo) == base) if (BINFO_TYPE (binfo) == base)
return binfo; return binfo;
return NULL; return NULL;
......
gcc/vec.h
...@@ -39,6 +39,11 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA ...@@ -39,6 +39,11 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA
objects pointed to must be long lived, but when dealing with a objects pointed to must be long lived, but when dealing with a
vector of objects, the source objects need not be. vector of objects, the source objects need not be.
There are both 'index' and 'iterate' accessors. The iterator
returns a boolean iteration condition and updates the iteration
variable passed by reference. Because the iterator will be
inlined, the address-of can be optimized away.
The vectors are implemented using the trailing array idiom, thus The vectors are implemented using the trailing array idiom, thus
they are not resizeable without changing the address of the vector they are not resizeable without changing the address of the vector
object itself. This means you cannot have variables or fields of object itself. This means you cannot have variables or fields of
...@@ -70,6 +75,11 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA ...@@ -70,6 +75,11 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA
element ordering 'ordered_remove', and one which does not element ordering 'ordered_remove', and one which does not
'unordered_remove'. The latter function copies the end element 'unordered_remove'. The latter function copies the end element
into the removed slot, rather than invoke a memmove operation. into the removed slot, rather than invoke a memmove operation.
If you need to directly manipulate a vector, then the 'address'
accessor will return the address of the start of the vector. Also
the 'space' predicate will tell you whether there is spare capacity
in the vector. You will not normally need to use these two functions.
Vector types are defined using a DEF_VEC_x(TYPEDEF) macro, and Vector types are defined using a DEF_VEC_x(TYPEDEF) macro, and
variables of vector type are declared using a VEC(TYPEDEF) variables of vector type are declared using a VEC(TYPEDEF)
...@@ -89,7 +99,7 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA ...@@ -89,7 +99,7 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA
if (VEC_length(tree,s->v)) { we have some contents } if (VEC_length(tree,s->v)) { we have some contents }
VEC_safe_push(tree,s->v,decl); // append some decl onto the end VEC_safe_push(tree,s->v,decl); // append some decl onto the end
for (ix = 0; (t = VEC_iterate(tree,s->v,ix)); ix++) for (ix = 0; VEC_iterate(tree,s->v,ix,t); ix++)
{ do something with t } { do something with t }
*/ */
...@@ -105,14 +115,16 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA ...@@ -105,14 +115,16 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA
Return the number of active elements in V. V can be NULL, in which Return the number of active elements in V. V can be NULL, in which
case zero is returned. */ case zero is returned. */
#define VEC_length(TDEF,V) (VEC_OP(TDEF,length)(V))
#define VEC_length(TDEF,V) (VEC_OP(TDEF,length)(V))
/* Get the final element of the vector. /* Get the final element of the vector.
T VEC_T_last(VEC(T) *v); // Pointer T VEC_T_last(VEC(T) *v); // Pointer
T *VEC_T_last(VEC(T) *v); // Object T *VEC_T_last(VEC(T) *v); // Object
Return the final element. If V is empty, abort. */ Return the final element. If V is empty, abort. */
#define VEC_last(TDEF,V) (VEC_OP(TDEF,last)(V))
#define VEC_last(TDEF,V) (VEC_OP(TDEF,last)(V VEC_CHECK_INFO))
/* Index into vector /* Index into vector
T VEC_T_index(VEC(T) *v, size_t ix); // Pointer T VEC_T_index(VEC(T) *v, size_t ix); // Pointer
...@@ -120,25 +132,29 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA ...@@ -120,25 +132,29 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA
Return the IX'th element. If IX is outside the domain of V, Return the IX'th element. If IX is outside the domain of V,
abort. */ abort. */
#define VEC_index(TDEF,V,I) (VEC_OP(TDEF,index)(V,I))
#define VEC_index(TDEF,V,I) (VEC_OP(TDEF,index)(V,I VEC_CHECK_INFO))
/* Iterate over vector /* Iterate over vector
T VEC_T_index(VEC(T) *v, size_t ix); // Pointer int VEC_T_index(VEC(T) *v, size_t ix, T &ptr); // Pointer
T *VEC_T_index(VEC(T) *v, size_t ix); // Object int VEC_T_index(VEC(T) *v, size_t ix, T *&ptr); // Object
Return the IX'th element or NULL. Use this to iterate over the Return iteration condition and update PTR to point to the IX'th
elements of a vector as follows, element. At the end of iteration, sets PTR to NULL. Use this to
iterate over the elements of a vector as follows,
for (ix = 0; (ptr = VEC_iterate(T,v,ix)); ix++) for (ix = 0; VEC_iterate(T,v,ix,ptr); ix++)
continue; */ continue; */
#define VEC_iterate(TDEF,V,I) (VEC_OP(TDEF,iterate)(V,I))
#define VEC_iterate(TDEF,V,I,P) (VEC_OP(TDEF,iterate)(V,I,&(P)))
/* Allocate new vector. /* Allocate new vector.
VEC(T) *VEC_T_alloc(int reserve); VEC(T) *VEC_T_alloc(int reserve);
Allocate a new vector with space for RESERVE objects. If RESERVE Allocate a new vector with space for RESERVE objects. If RESERVE
is <= 0, a default number of slots are created. */ is <= 0, a default number of slots are created. */
#define VEC_alloc(TDEF,A) (VEC_OP(TDEF,alloc)(A MEM_STAT_INFO))
#define VEC_alloc(TDEF,A) (VEC_OP(TDEF,alloc)(A MEM_STAT_INFO))
/* Use these to determine the required size and initialization of a /* Use these to determine the required size and initialization of a
vector embedded within another structure (as the final member). vector embedded within another structure (as the final member).
...@@ -147,8 +163,22 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA ...@@ -147,8 +163,22 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA
void VEC_T_embedded_init(VEC(T) *v, int reserve); void VEC_T_embedded_init(VEC(T) *v, int reserve);
These allow the caller to perform the memory allocation. */ These allow the caller to perform the memory allocation. */
#define VEC_embedded_size(TDEF,A) (VEC_OP(TDEF,embedded_size)(A))
#define VEC_embedded_init(TDEF,O,A) (VEC_OP(TDEF,embedded_init)(O,A)) #define VEC_embedded_size(TDEF,A) (VEC_OP(TDEF,embedded_size)(A))
#define VEC_embedded_init(TDEF,O,A) (VEC_OP(TDEF,embedded_init)(O,A))
/* Determine if a vector has additional capacity.
int VEC_T_space (VEC(T) *v,int reserve)
If V has space for RESERVE additional entries, return non-zero. If
RESERVE is < 0, ensure there is at least one space slot. You
usually only need to use this if you are doing your own vector
reallocation, for instance on an embedded vector. This returns
non-zero in exactly the same circumstances that VEC_T_reserve
will. */
#define VEC_space(TDEF,V,R) (VEC_OP(TDEF,space)(V,R))
/* Reserve space. /* Reserve space.
int VEC_T_reserve(VEC(T) *&v, int reserve); int VEC_T_reserve(VEC(T) *&v, int reserve);
...@@ -160,6 +190,7 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA ...@@ -160,6 +190,7 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA
perform the usual exponential headroom increase. Note this can perform the usual exponential headroom increase. Note this can
cause V to be reallocated. Returns non-zero iff reallocation cause V to be reallocated. Returns non-zero iff reallocation
actually occurred. */ actually occurred. */
#define VEC_reserve(TDEF,V,R) (VEC_OP(TDEF,reserve)(&(V),R MEM_STAT_INFO)) #define VEC_reserve(TDEF,V,R) (VEC_OP(TDEF,reserve)(&(V),R MEM_STAT_INFO))
/* Push object with no reallocation /* Push object with no reallocation
...@@ -170,7 +201,9 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA ...@@ -170,7 +201,9 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA
filled in. For object vectors, the new value can be NULL, in which filled in. For object vectors, the new value can be NULL, in which
case NO initialization is performed. Aborts if there is case NO initialization is performed. Aborts if there is
insufficient space in the vector. */ insufficient space in the vector. */
#define VEC_quick_push(TDEF,V,O) (VEC_OP(TDEF,quick_push)(V,O))
#define VEC_quick_push(TDEF,V,O) \
(VEC_OP(TDEF,quick_push)(V,O VEC_CHECK_INFO))
/* Push object with reallocation /* Push object with reallocation
T *VEC_T_safe_push (VEC(T) *&v, T obj); // Pointer T *VEC_T_safe_push (VEC(T) *&v, T obj); // Pointer
...@@ -179,7 +212,9 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA ...@@ -179,7 +212,9 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA
Push a new element onto the end, returns a pointer to the slot Push a new element onto the end, returns a pointer to the slot
filled in. For object vectors, the new value can be NULL, in which filled in. For object vectors, the new value can be NULL, in which
case NO initialization is performed. Reallocates V, if needed. */ case NO initialization is performed. Reallocates V, if needed. */
#define VEC_safe_push(TDEF,V,O) (VEC_OP(TDEF,safe_push)(&(V),O MEM_STAT_INFO))
#define VEC_safe_push(TDEF,V,O) \
(VEC_OP(TDEF,safe_push)(&(V),O VEC_CHECK_INFO MEM_STAT_INFO))
/* Pop element off end /* Pop element off end
T VEC_T_pop (VEC(T) *v); // Pointer T VEC_T_pop (VEC(T) *v); // Pointer
...@@ -187,13 +222,16 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA ...@@ -187,13 +222,16 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA
Pop the last element off the end. Returns the element popped, for Pop the last element off the end. Returns the element popped, for
pointer vectors. */ pointer vectors. */
#define VEC_pop(TDEF,V) (VEC_OP(TDEF,pop)(V))
#define VEC_pop(TDEF,V) (VEC_OP(TDEF,pop)(V VEC_CHECK_INFO))
/* Truncate to specific length /* Truncate to specific length
void VEC_T_truncate (VEC(T) *v, size_t len); void VEC_T_truncate (VEC(T) *v, size_t len);
Set the length as specified. This is an O(1) operation. */ Set the length as specified. This is an O(1) operation. */
#define VEC_truncate(TDEF,V,I) (VEC_OP(TDEF,truncate)(V,I))
#define VEC_truncate(TDEF,V,I) \
(VEC_OP(TDEF,truncate)(V,I VEC_CHECK_INFO))
/* Replace element /* Replace element
T VEC_T_replace (VEC(T) *v, size_t ix, T val); // Pointer T VEC_T_replace (VEC(T) *v, size_t ix, T val); // Pointer
...@@ -204,7 +242,9 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA ...@@ -204,7 +242,9 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA
pointer to the new value. For object vectors the new value can be pointer to the new value. For object vectors the new value can be
NULL, in which case no overwriting of the slot is actually NULL, in which case no overwriting of the slot is actually
performed. */ performed. */
#define VEC_replace(TDEF,V,I,O) (VEC_OP(TDEF,replace)(V,I,O))
#define VEC_replace(TDEF,V,I,O) \
(VEC_OP(TDEF,replace)(V,I,O VEC_CHECK_INFO))
/* Insert object with no reallocation /* Insert object with no reallocation
T *VEC_T_quick_insert (VEC(T) *v, size_t ix, T val); // Pointer T *VEC_T_quick_insert (VEC(T) *v, size_t ix, T val); // Pointer
...@@ -214,7 +254,9 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA ...@@ -214,7 +254,9 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA
to the slot created. For vectors of object, the new value can be to the slot created. For vectors of object, the new value can be
NULL, in which case no initialization of the inserted slot takes NULL, in which case no initialization of the inserted slot takes
place. Aborts if there is insufficient space. */ place. Aborts if there is insufficient space. */
#define VEC_quick_insert(TDEF,V,I,O) (VEC_OP(TDEF,quick_insert)(V,I,O))
#define VEC_quick_insert(TDEF,V,I,O) \
(VEC_OP(TDEF,quick_insert)(V,I,O VEC_CHECK_INFO))
/* Insert object with reallocation /* Insert object with reallocation
T *VEC_T_safe_insert (VEC(T) *&v, size_t ix, T val); // Pointer T *VEC_T_safe_insert (VEC(T) *&v, size_t ix, T val); // Pointer
...@@ -224,7 +266,9 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA ...@@ -224,7 +266,9 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA
to the slot created. For vectors of object, the new value can be to the slot created. For vectors of object, the new value can be
NULL, in which case no initialization of the inserted slot takes NULL, in which case no initialization of the inserted slot takes
place. Reallocate V, if necessary. */ place. Reallocate V, if necessary. */
#define VEC_safe_insert(TDEF,V,I,O) (VEC_OP(TDEF,safe_insert)(&(V),I,O MEM_STAT_INFO))
#define VEC_safe_insert(TDEF,V,I,O) \
(VEC_OP(TDEF,safe_insert)(&(V),I,O VEC_CHECK_INFO MEM_STAT_INFO))
/* Remove element retaining order /* Remove element retaining order
T VEC_T_ordered_remove (VEC(T) *v, size_t ix); // Pointer T VEC_T_ordered_remove (VEC(T) *v, size_t ix); // Pointer
...@@ -233,7 +277,9 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA ...@@ -233,7 +277,9 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA
Remove an element from the IXth position of V. Ordering of Remove an element from the IXth position of V. Ordering of
remaining elements is preserverd. For pointer vectors returns the remaining elements is preserverd. For pointer vectors returns the
removed object. This is an O(N) operation due to a memmove. */ removed object. This is an O(N) operation due to a memmove. */
#define VEC_ordered_remove(TDEF,V,I) (VEC_OP(TDEF,ordered_remove)(V,I))
#define VEC_ordered_remove(TDEF,V,I) \
(VEC_OP(TDEF,ordered_remove)(V,I VEC_CHECK_INFO))
/* Remove element destroying order /* Remove element destroying order
T VEC_T_unordered_remove (VEC(T) *v, size_t ix); // Pointer T VEC_T_unordered_remove (VEC(T) *v, size_t ix); // Pointer
...@@ -242,13 +288,16 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA ...@@ -242,13 +288,16 @@ Software Foundation, 59 Temple Place - Suite 330, Boston, MA
Remove an element from the IXth position of V. Ordering of Remove an element from the IXth position of V. Ordering of
remaining elements is destroyed. For pointer vectors returns the remaining elements is destroyed. For pointer vectors returns the
removed object. This is an O(1) operation. */ removed object. This is an O(1) operation. */
#define VEC_unordered_remove(TDEF,V,I) (VEC_OP(TDEF,unordered_remove)(V,I))
#define VEC_unordered_remove(TDEF,V,I) \
(VEC_OP(TDEF,unordered_remove)(V,I VEC_CHECK_INFO))
/* Get the address of the array of elements /* Get the address of the array of elements
T *VEC_T_address (VEC(T) v) T *VEC_T_address (VEC(T) v)
If you need to directly manipulate the array (for instance, you If you need to directly manipulate the array (for instance, you
want to feed it to qsort), use this accessor. */ want to feed it to qsort), use this accessor. */
#define VEC_address(TDEF,V) (VEC_OP(TDEF,address)(V)) #define VEC_address(TDEF,V) (VEC_OP(TDEF,address)(V))
#if !IN_GENGTYPE #if !IN_GENGTYPE
...@@ -257,15 +306,20 @@ extern void *vec_p_reserve (void *, int MEM_STAT_DECL); ...@@ -257,15 +306,20 @@ extern void *vec_p_reserve (void *, int MEM_STAT_DECL);
extern void *vec_o_reserve (void *, int, size_t, size_t MEM_STAT_DECL); extern void *vec_o_reserve (void *, int, size_t, size_t MEM_STAT_DECL);
#if ENABLE_CHECKING #if ENABLE_CHECKING
extern void vec_assert_fail (const char *, const char *, #define VEC_CHECK_INFO ,__FILE__,__LINE__,__FUNCTION__
const char *, unsigned int, const char *) #define VEC_CHECK_DECL ,const char *file_,unsigned line_,const char *function_
ATTRIBUTE_NORETURN; #define VEC_CHECK_PASS ,file_,line_,function_
#define VEC_ASSERT_FAIL(OP,VEC) \
vec_assert_fail (OP,#VEC,__FILE__,__LINE__,__FUNCTION__)
#define VEC_ASSERT(EXPR,OP,TDEF) \ #define VEC_ASSERT(EXPR,OP,TDEF) \
(void)((EXPR) ? 0 : (VEC_ASSERT_FAIL(OP,VEC(TDEF)), 0)) (void)((EXPR) ? 0 : (VEC_ASSERT_FAIL(OP,VEC(TDEF)), 0))
extern void vec_assert_fail (const char *, const char * VEC_CHECK_DECL)
ATTRIBUTE_NORETURN;
#define VEC_ASSERT_FAIL(OP,VEC) vec_assert_fail (OP,#VEC VEC_CHECK_PASS)
#else #else
#define VEC_CHECK_INFO
#define VEC_CHECK_DECL
#define VEC_CHECK_PASS
#define VEC_ASSERT(EXPR,OP,TYPE) (void)(EXPR) #define VEC_ASSERT(EXPR,OP,TYPE) (void)(EXPR)
#endif #endif
...@@ -303,7 +357,7 @@ static inline size_t VEC_OP (TDEF,length) \ ...@@ -303,7 +357,7 @@ static inline size_t VEC_OP (TDEF,length) \
} \ } \
\ \
static inline TDEF VEC_OP (TDEF,last) \ static inline TDEF VEC_OP (TDEF,last) \
(const VEC (TDEF) *vec_) \ (const VEC (TDEF) *vec_ VEC_CHECK_DECL) \
{ \ { \
VEC_ASSERT (vec_ && vec_->num, "last", TDEF); \ VEC_ASSERT (vec_ && vec_->num, "last", TDEF); \
\ \
...@@ -311,17 +365,26 @@ static inline TDEF VEC_OP (TDEF,last) \ ...@@ -311,17 +365,26 @@ static inline TDEF VEC_OP (TDEF,last) \
} \ } \
\ \
static inline TDEF VEC_OP (TDEF,index) \ static inline TDEF VEC_OP (TDEF,index) \
(const VEC (TDEF) *vec_, size_t ix_) \ (const VEC (TDEF) *vec_, size_t ix_ VEC_CHECK_DECL) \
{ \ { \
VEC_ASSERT (vec_ && ix_ < vec_->num, "index", TDEF); \ VEC_ASSERT (vec_ && ix_ < vec_->num, "index", TDEF); \
\ \
return vec_->vec[ix_]; \ return vec_->vec[ix_]; \
} \ } \
\ \
static inline TDEF VEC_OP (TDEF,iterate) \ static inline int VEC_OP (TDEF,iterate) \
(const VEC (TDEF) *vec_, size_t ix_) \ (const VEC (TDEF) *vec_, size_t ix_, TDEF *ptr) \
{ \ { \
return vec_ && ix_ < vec_->num ? vec_->vec[ix_] : NULL; \ if (vec_ && ix_ < vec_->num) \
{ \
*ptr = vec_->vec[ix_]; \
return 1; \
} \
else \
{ \
*ptr = 0; \
return 0; \
} \
} \ } \
\ \
static inline VEC (TDEF) *VEC_OP (TDEF,alloc) \ static inline VEC (TDEF) *VEC_OP (TDEF,alloc) \
...@@ -343,11 +406,17 @@ static inline void VEC_OP (TDEF,embedded_init) \ ...@@ -343,11 +406,17 @@ static inline void VEC_OP (TDEF,embedded_init) \
vec_->alloc = alloc_; \ vec_->alloc = alloc_; \
} \ } \
\ \
static inline int VEC_OP (TDEF,space) \
(VEC (TDEF) *vec_, int alloc_) \
{ \
return vec_ ? ((vec_)->alloc - (vec_)->num \
< (size_t)(alloc_ < 0 ? 1 : alloc_)) : alloc_ != 0; \
} \
\
static inline int VEC_OP (TDEF,reserve) \ static inline int VEC_OP (TDEF,reserve) \
(VEC (TDEF) **vec_, int alloc_ MEM_STAT_DECL) \ (VEC (TDEF) **vec_, int alloc_ MEM_STAT_DECL) \
{ \ { \
int extend = !*vec_ || ((*vec_)->alloc - (*vec_)->num \ int extend = VEC_OP (TDEF,space) (*vec_, alloc_); \
< (size_t)(alloc_ < 0 ? 1 : alloc_)); \
\ \
if (extend) \ if (extend) \
*vec_ = vec_p_reserve (*vec_, alloc_ PASS_MEM_STAT); \ *vec_ = vec_p_reserve (*vec_, alloc_ PASS_MEM_STAT); \
...@@ -356,7 +425,7 @@ static inline int VEC_OP (TDEF,reserve) \ ...@@ -356,7 +425,7 @@ static inline int VEC_OP (TDEF,reserve) \
} \ } \
\ \
static inline TDEF *VEC_OP (TDEF,quick_push) \ static inline TDEF *VEC_OP (TDEF,quick_push) \
(VEC (TDEF) *vec_, TDEF obj_) \ (VEC (TDEF) *vec_, TDEF obj_ VEC_CHECK_DECL) \
{ \ { \
TDEF *slot_; \ TDEF *slot_; \
\ \
...@@ -368,15 +437,15 @@ static inline TDEF *VEC_OP (TDEF,quick_push) \ ...@@ -368,15 +437,15 @@ static inline TDEF *VEC_OP (TDEF,quick_push) \
} \ } \
\ \
static inline TDEF *VEC_OP (TDEF,safe_push) \ static inline TDEF *VEC_OP (TDEF,safe_push) \
(VEC (TDEF) **vec_, TDEF obj_ MEM_STAT_DECL) \ (VEC (TDEF) **vec_, TDEF obj_ VEC_CHECK_DECL MEM_STAT_DECL) \
{ \ { \
VEC_OP (TDEF,reserve) (vec_, -1 PASS_MEM_STAT); \ VEC_OP (TDEF,reserve) (vec_, -1 PASS_MEM_STAT); \
\ \
return VEC_OP (TDEF,quick_push) (*vec_, obj_); \ return VEC_OP (TDEF,quick_push) (*vec_, obj_ VEC_CHECK_PASS); \
} \ } \
\ \
static inline TDEF VEC_OP (TDEF,pop) \ static inline TDEF VEC_OP (TDEF,pop) \
(VEC (TDEF) *vec_) \ (VEC (TDEF) *vec_ VEC_CHECK_DECL) \
{ \ { \
TDEF obj_; \ TDEF obj_; \
\ \
...@@ -387,7 +456,7 @@ static inline TDEF VEC_OP (TDEF,pop) \ ...@@ -387,7 +456,7 @@ static inline TDEF VEC_OP (TDEF,pop) \
} \ } \
\ \
static inline void VEC_OP (TDEF,truncate) \ static inline void VEC_OP (TDEF,truncate) \
(VEC (TDEF) *vec_, size_t size_) \ (VEC (TDEF) *vec_, size_t size_ VEC_CHECK_DECL) \
{ \ { \
VEC_ASSERT (vec_ ? vec_->num >= size_ : !size_, "truncate", TDEF); \ VEC_ASSERT (vec_ ? vec_->num >= size_ : !size_, "truncate", TDEF); \
if (vec_) \ if (vec_) \
...@@ -395,7 +464,7 @@ static inline void VEC_OP (TDEF,truncate) \ ...@@ -395,7 +464,7 @@ static inline void VEC_OP (TDEF,truncate) \
} \ } \
\ \
static inline TDEF VEC_OP (TDEF,replace) \ static inline TDEF VEC_OP (TDEF,replace) \
(VEC (TDEF) *vec_, size_t ix_, TDEF obj_) \ (VEC (TDEF) *vec_, size_t ix_, TDEF obj_ VEC_CHECK_DECL) \
{ \ { \
TDEF old_obj_; \ TDEF old_obj_; \
\ \
...@@ -407,7 +476,7 @@ static inline TDEF VEC_OP (TDEF,replace) \ ...@@ -407,7 +476,7 @@ static inline TDEF VEC_OP (TDEF,replace) \
} \ } \
\ \
static inline TDEF *VEC_OP (TDEF,quick_insert) \ static inline TDEF *VEC_OP (TDEF,quick_insert) \
(VEC (TDEF) *vec_, size_t ix_, TDEF obj_) \ (VEC (TDEF) *vec_, size_t ix_, TDEF obj_ VEC_CHECK_DECL) \
{ \ { \
TDEF *slot_; \ TDEF *slot_; \
\ \
...@@ -421,15 +490,15 @@ static inline TDEF *VEC_OP (TDEF,quick_insert) \ ...@@ -421,15 +490,15 @@ static inline TDEF *VEC_OP (TDEF,quick_insert) \
} \ } \
\ \
static inline TDEF *VEC_OP (TDEF,safe_insert) \ static inline TDEF *VEC_OP (TDEF,safe_insert) \
(VEC (TDEF) **vec_, size_t ix_, TDEF obj_ MEM_STAT_DECL) \ (VEC (TDEF) **vec_, size_t ix_, TDEF obj_ VEC_CHECK_DECL MEM_STAT_DECL) \
{ \ { \
VEC_OP (TDEF,reserve) (vec_, -1 PASS_MEM_STAT); \ VEC_OP (TDEF,reserve) (vec_, -1 PASS_MEM_STAT); \
\ \
return VEC_OP (TDEF,quick_insert) (*vec_, ix_, obj_); \ return VEC_OP (TDEF,quick_insert) (*vec_, ix_, obj_ VEC_CHECK_PASS); \
} \ } \
\ \
static inline TDEF VEC_OP (TDEF,ordered_remove) \ static inline TDEF VEC_OP (TDEF,ordered_remove) \
(VEC (TDEF) *vec_, size_t ix_) \ (VEC (TDEF) *vec_, size_t ix_ VEC_CHECK_DECL) \
{ \ { \
TDEF *slot_; \ TDEF *slot_; \
TDEF obj_; \ TDEF obj_; \
...@@ -443,7 +512,7 @@ static inline TDEF VEC_OP (TDEF,ordered_remove) \ ...@@ -443,7 +512,7 @@ static inline TDEF VEC_OP (TDEF,ordered_remove) \
} \ } \
\ \
static inline TDEF VEC_OP (TDEF,unordered_remove) \ static inline TDEF VEC_OP (TDEF,unordered_remove) \
(VEC (TDEF) *vec_, size_t ix_) \ (VEC (TDEF) *vec_, size_t ix_ VEC_CHECK_DECL) \
{ \ { \
TDEF *slot_; \ TDEF *slot_; \
TDEF obj_; \ TDEF obj_; \
...@@ -480,7 +549,7 @@ static inline size_t VEC_OP (TDEF,length) \ ...@@ -480,7 +549,7 @@ static inline size_t VEC_OP (TDEF,length) \
} \ } \
\ \
static inline TDEF *VEC_OP (TDEF,last) \ static inline TDEF *VEC_OP (TDEF,last) \
(VEC (TDEF) *vec_) \ (VEC (TDEF) *vec_ VEC_CHECK_DECL) \
{ \ { \
VEC_ASSERT (vec_ && vec_->num, "last", TDEF); \ VEC_ASSERT (vec_ && vec_->num, "last", TDEF); \
\ \
...@@ -488,17 +557,26 @@ static inline TDEF *VEC_OP (TDEF,last) \ ...@@ -488,17 +557,26 @@ static inline TDEF *VEC_OP (TDEF,last) \
} \ } \
\ \
static inline TDEF *VEC_OP (TDEF,index) \ static inline TDEF *VEC_OP (TDEF,index) \
(VEC (TDEF) *vec_, size_t ix_) \ (VEC (TDEF) *vec_, size_t ix_ VEC_CHECK_DECL) \
{ \ { \
VEC_ASSERT (vec_ && ix_ < vec_->num, "index", TDEF); \ VEC_ASSERT (vec_ && ix_ < vec_->num, "index", TDEF); \
\ \
return &vec_->vec[ix_]; \ return &vec_->vec[ix_]; \
} \ } \
\ \
static inline TDEF *VEC_OP (TDEF,iterate) \ static inline int VEC_OP (TDEF,iterate) \
(VEC (TDEF) *vec_, size_t ix_) \ (VEC (TDEF) *vec_, size_t ix_, TDEF **ptr) \
{ \ { \
return vec_ && ix_ < vec_->num ? &vec_->vec[ix_] : NULL; \ if (vec_ && ix_ < vec_->num) \
{ \
*ptr = &vec_->vec[ix_]; \
return 1; \
} \
else \
{ \
*ptr = 0; \
return 0; \
} \
} \ } \
\ \
static inline VEC (TDEF) *VEC_OP (TDEF,alloc) \ static inline VEC (TDEF) *VEC_OP (TDEF,alloc) \
...@@ -522,11 +600,17 @@ static inline void VEC_OP (TDEF,embedded_init) \ ...@@ -522,11 +600,17 @@ static inline void VEC_OP (TDEF,embedded_init) \
vec_->alloc = alloc_; \ vec_->alloc = alloc_; \
} \ } \
\ \
static inline int VEC_OP (TDEF,space) \
(VEC (TDEF) *vec_, int alloc_) \
{ \
return vec_ ? ((vec_)->alloc - (vec_)->num \
< (size_t)(alloc_ < 0 ? 1 : alloc_)) : alloc_ != 0; \
} \
\
static inline int VEC_OP (TDEF,reserve) \ static inline int VEC_OP (TDEF,reserve) \
(VEC (TDEF) **vec_, int alloc_ MEM_STAT_DECL) \ (VEC (TDEF) **vec_, int alloc_ MEM_STAT_DECL) \
{ \ { \
int extend = !*vec_ || ((*vec_)->alloc - (*vec_)->num \ int extend = VEC_OP (TDEF,space) (*vec_, alloc_); \
< (size_t)(alloc_ < 0 ? 1 : alloc_)); \
\ \
if (extend) \ if (extend) \
*vec_ = vec_o_reserve (*vec_, alloc_, \ *vec_ = vec_o_reserve (*vec_, alloc_, \
...@@ -537,7 +621,7 @@ static inline int VEC_OP (TDEF,reserve) \ ...@@ -537,7 +621,7 @@ static inline int VEC_OP (TDEF,reserve) \
} \ } \
\ \
static inline TDEF *VEC_OP (TDEF,quick_push) \ static inline TDEF *VEC_OP (TDEF,quick_push) \
(VEC (TDEF) *vec_, const TDEF *obj_) \ (VEC (TDEF) *vec_, const TDEF *obj_ VEC_CHECK_DECL) \
{ \ { \
TDEF *slot_; \ TDEF *slot_; \
\ \
...@@ -550,22 +634,22 @@ static inline TDEF *VEC_OP (TDEF,quick_push) \ ...@@ -550,22 +634,22 @@ static inline TDEF *VEC_OP (TDEF,quick_push) \
} \ } \
\ \
static inline TDEF *VEC_OP (TDEF,safe_push) \ static inline TDEF *VEC_OP (TDEF,safe_push) \
(VEC (TDEF) **vec_, const TDEF *obj_ MEM_STAT_DECL) \ (VEC (TDEF) **vec_, const TDEF *obj_ VEC_CHECK_DECL MEM_STAT_DECL) \
{ \ { \
VEC_OP (TDEF,reserve) (vec_, -1 PASS_MEM_STAT); \ VEC_OP (TDEF,reserve) (vec_, -1 PASS_MEM_STAT); \
\ \
return VEC_OP (TDEF,quick_push) (*vec_, obj_); \ return VEC_OP (TDEF,quick_push) (*vec_, obj_ VEC_CHECK_PASS); \
} \ } \
\ \
static inline void VEC_OP (TDEF,pop) \ static inline void VEC_OP (TDEF,pop) \
(VEC (TDEF) *vec_) \ (VEC (TDEF) *vec_ VEC_CHECK_DECL) \
{ \ { \
VEC_ASSERT (vec_->num, "pop", TDEF); \ VEC_ASSERT (vec_->num, "pop", TDEF); \
--vec_->num; \ --vec_->num; \
} \ } \
\ \
static inline void VEC_OP (TDEF,truncate) \ static inline void VEC_OP (TDEF,truncate) \
(VEC (TDEF) *vec_, size_t size_) \ (VEC (TDEF) *vec_, size_t size_ VEC_CHECK_DECL) \
{ \ { \
VEC_ASSERT (vec_ ? vec_->num >= size_ : !size_, "truncate", TDEF); \ VEC_ASSERT (vec_ ? vec_->num >= size_ : !size_, "truncate", TDEF); \
if (vec_) \ if (vec_) \
...@@ -573,7 +657,7 @@ static inline void VEC_OP (TDEF,truncate) \ ...@@ -573,7 +657,7 @@ static inline void VEC_OP (TDEF,truncate) \
} \ } \
\ \
static inline TDEF *VEC_OP (TDEF,replace) \ static inline TDEF *VEC_OP (TDEF,replace) \
(VEC (TDEF) *vec_, size_t ix_, const TDEF *obj_) \ (VEC (TDEF) *vec_, size_t ix_, const TDEF *obj_ VEC_CHECK_DECL) \
{ \ { \
TDEF *slot_; \ TDEF *slot_; \
\ \
...@@ -586,7 +670,7 @@ static inline TDEF *VEC_OP (TDEF,replace) \ ...@@ -586,7 +670,7 @@ static inline TDEF *VEC_OP (TDEF,replace) \
} \ } \
\ \
static inline TDEF *VEC_OP (TDEF,quick_insert) \ static inline TDEF *VEC_OP (TDEF,quick_insert) \
(VEC (TDEF) *vec_, size_t ix_, const TDEF *obj_) \ (VEC (TDEF) *vec_, size_t ix_, const TDEF *obj_ VEC_CHECK_DECL) \
{ \ { \
TDEF *slot_; \ TDEF *slot_; \
\ \
...@@ -601,15 +685,15 @@ static inline TDEF *VEC_OP (TDEF,quick_insert) \ ...@@ -601,15 +685,15 @@ static inline TDEF *VEC_OP (TDEF,quick_insert) \
} \ } \
\ \
static inline TDEF *VEC_OP (TDEF,safe_insert) \ static inline TDEF *VEC_OP (TDEF,safe_insert) \
(VEC (TDEF) **vec_, size_t ix_, const TDEF *obj_ MEM_STAT_DECL) \ (VEC (TDEF) **vec_, size_t ix_, const TDEF *obj_ VEC_CHECK_DECL MEM_STAT_DECL) \
{ \ { \
VEC_OP (TDEF,reserve) (vec_, -1 PASS_MEM_STAT); \ VEC_OP (TDEF,reserve) (vec_, -1 PASS_MEM_STAT); \
\ \
return VEC_OP (TDEF,quick_insert) (*vec_, ix_, obj_); \ return VEC_OP (TDEF,quick_insert) (*vec_, ix_, obj_ VEC_CHECK_PASS); \
} \ } \
\ \
static inline void VEC_OP (TDEF,ordered_remove) \ static inline void VEC_OP (TDEF,ordered_remove) \
(VEC (TDEF) *vec_, size_t ix_) \ (VEC (TDEF) *vec_, size_t ix_ VEC_CHECK_DECL) \
{ \ { \
TDEF *slot_; \ TDEF *slot_; \
\ \
...@@ -619,7 +703,7 @@ static inline void VEC_OP (TDEF,ordered_remove) \ ...@@ -619,7 +703,7 @@ static inline void VEC_OP (TDEF,ordered_remove) \
} \ } \
\ \
static inline void VEC_OP (TDEF,unordered_remove) \ static inline void VEC_OP (TDEF,unordered_remove) \
(VEC (TDEF) *vec_, size_t ix_) \ (VEC (TDEF) *vec_, size_t ix_ VEC_CHECK_DECL) \
{ \ { \
VEC_ASSERT (ix_ < vec_->num, "remove", TDEF); \ VEC_ASSERT (ix_ < vec_->num, "remove", TDEF); \
vec_->vec[ix_] = vec_->vec[--vec_->num]; \ vec_->vec[ix_] = vec_->vec[--vec_->num]; \
......
Markdown is supported
0% or
You are about to add 0 people to the discussion. Proceed with caution.
Finish editing this message first!
Please register or to comment